Global EV sales have soared by around 233 percent over the past five years, according to the International Energy Agency (IEA). The US has seen similar growth, with a 52 percent rise in 2023, according to S&P Global.
However, the infrastructure supporting this level of growth – the American charging network – is struggling to keep pace. This is a leading factor in the slowdown of projected sales of EVs.
According to a 2023 poll, more than half of Americans surveyed said they wouldn’t consider buying an EV, with 80 percent of respondents citing a lack of charging infrastructure. The existing network of public chargers, a system-wide lack of reliability continues to frustrate those already driving EVs, with 1 in every 5 charging attempts at public chargers failing. There has long been a lack of data supporting why these failures happen and how to fix the problem - until now.
Electric Vehicle Supply Equipment (EVSE) operations and maintenance service provider ChargerHelp has conducted an extensive analysis of EV public charging infrastructure, offering a deeper dive into what’s causing nagging reliability issues.
The report, which was reviewed and endorsed by professor Gil Tal, director of the Electric Vehicle Research Center at UC Davis, analysed data from five primary sources: two complementary sets of first-party data from ChargerHelp’s direct EVSE O&M experience, third-party data from Paren, Inc., and public data from the U.S. DOE’s AFDC database, - each focused on public charging infrastructure. In total, the report analyzed more than 19 million individual data points.
“After pulling data for four years from 20,000 chargers, we identified key areas where the public charging system can be improved to better meet the needs of today’s EV driver” said Kameale Terry, co-founder and CEO of ChargerHelp. “For the EV market to continue to flourish, we need to work to ensure true uptime is the norm through a standardised and more synchronised approach to data, maintenance and communication networks.”
While the report cites a wide swath of issues, a startling lack of interoperability (the compatibility of key system components - vehicles, charging stations, charging networks, and the grid - and the software systems that support them, allowing all components to work seamlessly and effectively) stands out as the overarching threat to system reliability and broader EV adoption in the United States.
The report highlights several key findings:
True Uptime vs. Reported Uptime: Actual EV charger uptime falls short of self-reported figures, with software often overestimating station functionality, affecting driver confidence.
Reliability Variations: Charger reliability varies widely by state and network, with older infrastructure and certain networks experiencing higher rates of downtime.
Targeted Repairs and Standardisation: A number of problem stations require multiple repairs, significantly impacting overall reliability. Standardised reliability metrics are crucial for improving uptime.
In response to these findings, the report offers a set of recommendations aimed at improving EVSE reliability and enhancing the charging experience for EV drivers:
Ensure Data Accessibility
Measure Uptime effectively with standardised data reporting protocols
Allocate O&M Specific funding to maintain and renew EVSE infrastructure
Implement Comprehensive Warranty Coverage and standardised troubleshooting protocols
Promote leading practices and expand technician training and certification
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